CN202211687U - Sphygmomanometer - Google Patents

Abstract

The utility model discloses a sphygmomanometer comprising a measurement module, a gravity sensing module, a setting module, a processing module and an alarm module. The measurement module can be used to measure physiological parameters of a human body. The gravity sensing module can be used to sense an acceleration variation of the sphygmomanometer in a three-dimensional space, and then generate sensing signals. A storage module can be used to store basic parameter values. The processing module can be used to connect the measurement module, the gravity sensing module and the storage module, and can be used to drive the measurement module to measure the physiological parameters of the human body according to the sensing signals, the processing module can be also used to determine whether the physiological parameters are lager or smaller than the basic parameter values. The alarm module can be connected with the processing module, and send alarm signals according to the results that the physiological parameters are lager or smaller than the basic parameter values.

Description

Sphygomanometer

Technical field

This utility model relates to a kind of sphygomanometer, particularly relates to a kind of its acceleration of detecting and changes, and judge whether the physiological parameter of a human body is unusual, utilizes alarm module to send the sphygomanometer of alerting again.

Background technology

Show that according to the statistics of the U.S. falling is the main reason of over-65s old man unexpected death, Taiwan then is the second largest cause of death, and the incidence rate that annual old man falls is about 15～40%, and along with the age increases and raises.Because the old man often has coexistence diseases such as the osteoporosis, organ dysfunction degeneration of high prevalence rate, even slight falling also possibly cause very big danger.

The place that takes place with regard to falling shows according to research in 2005, and the old man has fallen and 44.4% occurred in residence, wherein in bathroom/lavatory, parlor, bedroom respectively be 26.6%, 22.9% and 13.7%; With regard to the activity of being engaged in regard to falling at that time, walk about at most, account for 22.3% with indoor, inferior for big (little) just 12.2% with have a bath 10.2%; Other has 55.4% old man to fall to occur in beyond residence, wherein betide on street or the road, vegetable garden farmland, park or sports ground respectively are 46.7%, 12.0% and 7.6%, and is on smooth ground; With regard to the activity of being engaged in regard to falling at that time; To take a walk at most; Account for 37.0%, and falling approximately of old people just once can cause serious injury per ten times, average every need spend 9～130,000 yuan when being in hospital; And have people over half from then on can't live on one's own life, there had 20～30% steps to go up in 1 year to be dead.In addition, there is 55%～65% old man to understand because fear to fall once more, and the restriction self activity; Gradually lost independent active ability; Make body function more and more poor, also cause household's burden, can know falls not only can damage health; Increase health care expenditures, also influenced old man's doings.Therefore,, must reduce the incidence rate of the various injuries after falling, reduce considerable Financial cost if can find in time that the old man falls.

The extent of injury that the old man falls and causes; Often depend on the discovery of falling, the time of sending doctor and urgent rescue; If the incident detecting real-time of falling can be provided; Because of the unmanned deterioration of finding to cause health wound and holistic health state, more can reduce the expenditure of Financial cost in the family in the time of not only can avoiding falling.Therefore, how to grasp the prime time of sending the doctor, become the problem of this utility model research.

The utility model content

Because the problem of above-mentioned prior art; The purpose of this utility model is providing a kind of sphygomanometer exactly, is to detect its acceleration change, and judges whether the physiological parameter of human body is unusual; Send alerting via alarm module again, to prevent the injured problem that but can't in time learn of the wounded.

According to the purpose of this utility model, a kind of sphygomanometer is proposed, it comprises one and measures module, a gravity sensing module, a storage module, a processing module and an alarm module.Measuring module is the physiological parameter that measures a human body.Gravity sensing module is the acceleration change of sense blood pressure meter in solid space, to produce a sensing signal.Storage module is to store a basic parameter numerical value.Processing module is to connect to measure module, gravity sensing module and storage module; Measure the physiological parameter that module measures human body to drive according to the sensing signal; Judge also whether physiological parameter is greater than or less than basic parameter numerical value; And alarm module is the connection processing module, and when being greater than or less than basic parameter numerical value according to physiological parameter, alarm module then sends an alerting.

Preferably, the described sphygomanometer of this utility model also comprises a delivery module, and its connection processing module is when being greater than or less than basic parameter numerical value according to physiological parameter, and processing module is then sent a warning message at least one electronic installation via delivery module.

Preferably, the described sphygomanometer of this utility model, also can in build or an external input module, input module is the connection processing module, in order to input or revise basic parameter numerical value, and is stored to storage module via processing module.

Preferably, the described sphygomanometer of this utility model also comprises a display module, and its connection processing module is to show physiological parameter, sensing signal and basic parameter numerical value.

Preferably, the acceleration change is for being arranged on human body when sphygomanometer, and the action that human body produced changes.

Preferably, action changes and to comprise that human body is fallen or the action when falling in a swoon.

Preferably, the action variation comprises the action that human body is sat down or squatted down.

Preferably, physiological parameter comprises a pressure value and a beats value

Preferably, basic parameter numerical value comprises a blood pressure upper limit set value, a blood pressure lower limit set value, a beats upper limit set value and a beats lower limit set value.

Hold the above, because of the sphygomanometer according to this utility model, it can have one or more following advantage:

(1) this sphygomanometer can provide the incident detecting real-time of falling, and because of the unmanned deterioration of finding to cause health wound and holistic health state, more can reduce the expenditure of Financial cost in the family in the time of not only can avoiding falling.

During action that (2) this sphygomanometer can be when human body be fallen or fallen in a swoon, send a warning message to mobile phone or long-distance monitorng device via delivery module.

Description of drawings

Fig. 1 is the sketch map of first embodiment of the sphygomanometer of this utility model;

Fig. 2 is the sketch map of second embodiment of the sphygomanometer of this utility model;

Fig. 3 is the operating process sketch map of the 3rd embodiment sphygomanometer of this utility model;

Fig. 4 is the first use sketch map of the 3rd embodiment sphygomanometer of this utility model; And

Fig. 5 is the second use sketch map of the 3rd embodiment sphygomanometer of this utility model.

The primary clustering label declaration:

1: sphygomanometer;

11: measure module;

12: gravity sensing module;

13: storage module;

14: processing module;

15: alarm module;

16: delivery module;

17: input module;

18: display module;

20: human body;

21: long-distance monitorng device;

22: the hands machine; And

S31～S342: step.

The specific embodiment

Below will be with reference to relevant drawings; Explanation can be detected its acceleration change according to having of this utility model; And whether the physiological parameter of judging a human body is unusual; Again via alarm module sound, the embodiment of the sphygomanometer of the alerting of light or its compound mode, be convenient to understand for making, the same components among the following embodiment is to indicate with identical label to explain.

Please with reference to Fig. 1, it is the sketch map of first embodiment of the sphygomanometer of this utility model.Among Fig. 1, sphygomanometer 1 comprises one and measures module 11, a gravity sensing module 12, a storage module 13, a processing module 14, an alarm module 15 and a delivery module 16.Processing module 14 is to connect to measure module 11, gravity sensing module 12 and storage module 13.Alarm module 15 and delivery module 16 be connection processing module 14 also.

Measure module 11 in order to measure the physiological parameter of a human body, for example pressure value and heart beating numerical value.Gravity sensing module 12 is in order to the acceleration change of sense blood pressure meter 1 body in solid space, to produce a sensing signal.For example, when sphygomanometer 1 is arranged on the human body, human body produces action to be changed, and make sphygomanometer 1 body produce strenuous vibration or even during the change of displacement uniform acceleration, gravity sensing module 12 can sense and produce the sensing signal.According to the above-mentioned sensing signal that receives, processing module 14 can drive measurement module 11 and obtain human body physiological parameter instantly.Processing module 14 can judge more whether the physiological parameter that is obtained is unusual, and for example physiological parameter is greater than or less than this basic parameter numerical value; If belong to unusual; The expression human body moves at this moment to be changed to and falls or action such as fall in a swoon; 15 of alarm modules are sounded, an alerting of light or its compound mode, and send warning messages (like note) at least one electronic installation (like mobile phone or computer) by processing module 14 via delivery module 16; If belong to normally, the expression human body moves at this moment and is changed to the action of sitting down or squatting down, and does not then send alerting or sends warning message.And storage module 13 is in order to store basic parameter numerical value.Wherein, Basic parameter numerical value comprises a blood pressure upper limit set value, a blood pressure lower limit set value, a beats upper limit set value and a beats lower limit set value; And when sphygomanometer 1 is made completion, promptly basic parameter numerical value is input in the storage module 13 by manufacturer.

Please with reference to Fig. 2, it is the sketch map of second embodiment of the sphygomanometer of this utility model.Among Fig. 2, sphygomanometer 1 comprises one and measures module 11, a gravity sensing module 12, a storage module 13, a processing module 14, an alarm module 15, a delivery module 16, an input module 17 and a display module 18.Processing module 14 is to connect to measure module 11, gravity sensing module 12 and storage module 13.Alarm module 15, delivery module 16 and display module 18 also are connected to processing module 14.Wherein, input module 17 is to build or external mode connection processing module 14 in utilizing.

Measure module 11 in order to measure the physiological parameter of human body, for example pressure value and heart beating numerical value.Gravity sensing module 12 is in order to the acceleration change of sense blood pressure meter 1 body in solid space, to produce a sensing signal.For example, when sphygomanometer 1 is arranged on the human body, human body produces action to be changed, and make sphygomanometer 1 body produce strenuous vibration or even during the change of displacement uniform acceleration, gravity sensing module 12 can sense and produce the sensing signal.According to the above-mentioned sensing signal that receives, processing module 14 can drive measurement module 11 and obtain human body physiological parameter instantly.Processing module 14 can judge more whether the physiological parameter that is obtained is unusual, and for example physiological parameter is greater than or less than this basic parameter numerical value; If belong to unusual; The expression human body moves at this moment to be changed to and falls or action such as fall in a swoon; 15 of alarm modules are sounded, an alerting of light or its compound mode, and send a warning message at least one electronic installation by processing module 14 via delivery module 16; If belong to normally, the expression human body moves at this moment and is changed to the action of sitting down or squatting down, and does not then send alerting or sends warning message.And storage module 13 is in order to store basic parameter numerical value.Wherein, Basic parameter numerical value comprises a blood pressure upper limit set value, a blood pressure lower limit set value, a beats upper limit set value and a beats lower limit set value; And when basic parameter numerical value can be made completion by sphygomanometer 1; Promptly basic parameter numerical value is input in the storage module 13, perhaps sees through input module 17 and import or revise basic parameter numerical value, and be stored to storage module 13 via processing module 14 by manufacturer.And display module 18 is in order to show physiological parameter, sensing signal and basic parameter numerical value.

Among each embodiment like the sphygomanometer of above-mentioned this utility model, gravity sensing module 12 is a gravity sensor (G-SENSOR) for example.

Please with reference to Fig. 3, it is the operational flowchart of the 3rd embodiment of the sphygomanometer of this utility model, please in the lump with reference to Fig. 1.Among the figure, S31: sphygomanometer is fixed on human body, and starts sphygomanometer.S32: measure the physiological parameter that module measures human body, and the change of the acceleration of gravity sensing module sense blood pressure meter body, to produce the sensing signal.S33: processing module drives according to receiving the sensing signal and measures module measurement human body physiological parameter instantly, judges also whether the physiological parameter that is obtained is unusual, and for example physiological parameter is greater than or less than this basic parameter numerical value.S341: judge physiological parameter when processing module and belong to unusually that alarm module is then sounded, the alerting of light or its compound mode, and by processing module via delivery module transmission warning message to mobile phone or long-distance monitorng device.S342:, then do not send alerting or send warning message if processing module judges that physiological parameter belongs to normally.

Please with reference to Fig. 4 and Fig. 5, its be this utility model sphygomanometer the 3rd embodiment first use sketch map and second to use sketch map, please in the lump with reference to Fig. 1 and Fig. 3.Among the figure, sphygomanometer 1 is fixed on human body 20, and starts sphygomanometer 1.When producing action, human body 20 changes; And make sphygomanometer 1 body produce strenuous vibration or even during the change of displacement uniform acceleration; Gravity sensing module 12 can sense and produce the sensing signal; Processing module 14 foundations received above-mentioned sensing signal and drove measurement module 11 measurement human bodies 20 pressure value and heart beating numerical value instantly this moment; Whether also judge the pressure value obtained greater than the blood pressure upper limit set value or less than the blood pressure lower limit set value, perhaps whether heart beating numerical value greater than the beats upper limit set value or less than the beats lower limit set value, or whether pressure value and heart beating numerical value numerical value all belong to unusual; When processing module 14 judges that pressure value is greater than the blood pressure upper limit set value or less than the blood pressure lower limit set value; Perhaps heart beating numerical value is greater than the beats upper limit set value or less than the beats lower limit set value; Or both numerical value are when all belonging to unusual; The expression human body moves at this moment to be changed to and falls or action such as fall in a swoon; 15 of alarm modules are sounded, the alerting of light or its compound mode, and send warning message to mobile phones 21 or long-distance monitorng devices 22 by processing module 14 via delivery module 16; If processing module 14 judges that pressure value is not greater than the blood pressure upper limit set value or less than the blood pressure lower limit set value; And heart beating numerical value is not greater than the beats upper limit set value or during less than the beats lower limit set value; The expression human body moves at this moment and is changed to the action of sitting down or squatting down, and does not then send alerting or sends warning message.

Among the 3rd embodiment like the sphygomanometer of above-mentioned this utility model; When basic parameter numerical value is made completion at sphygomanometer 1; Promptly be input in the storage module 13 by manufacturer; Build in perhaps utilizing or external mode connects an input module 17 and imports or revise basic parameter numerical value, and be stored to storage module 13 via processing module 14.

In sum, among each embodiment of the sphygomanometer of this utility model, basic parameter numerical value is the body constitution of corresponding human body; For example; Basic parameter numerical value can use a deck watch stores in storage module 13, and user is imported body constitution in input module 17, as: height, body weight, age etc.; Processing module 14 is according to the body constitution parameter of user input, searches pairing basic parameter numerical value among the deck watch.Meaning is that the sphygomanometer of this utility model can be set the normal basic parameter numerical range that meets the user body constitution according to the body constitution of user voluntarily.

Moreover the position that sphygomanometer 1 can be fixed on human body 20 comprises wrist, arm, chest or thigh.And, delivery module 16 comprise Global System for Mobile Communication (GlobalSystem for Mobile Communications, GSM), infrared ray, blue bud or third generation Mobile Communications technology (3RD-GENERATION, 3G).

The above is merely illustrative, but not is restricted person.Any spirit and category that does not break away from this utility model, and to its equivalent modifications of carrying out or change, all should be contained in the scope of claim.

Claims (9)

1. sphygomanometer is characterized in that it comprises:

One measures module, is a physiology parameter that measures a human body;

One gravity sensing module is the acceleration change of this sphygomanometer of sensing in solid space, to produce a sensing signal;

One storage module is to store a basic parameter numerical value;

One processing module, it connects should measure module, this gravity sensing module and this storage module, was to drive this physiological parameter that this measurement module measures this human body according to this sensing signal, judged also whether this physiological parameter is greater than or less than this basic parameter numerical value; And

One alarm module, it connects this processing module, is to be greater than or less than this basic parameter numerical value according to this physiological parameter, and this alarm module then sends an alerting.

2. sphygomanometer as claimed in claim 1; It is characterized in that it also comprises a delivery module, it connects this processing module; Be to be greater than or less than this basic parameter numerical value according to this physiological parameter, this processing module is then sent a warning message at least one electronic installation via this delivery module.

3. sphygomanometer as claimed in claim 1 is characterized in that, its also can in build or an external input module, this input module is to connect this processing module, in order to input or revise this basic parameter numerical value, and is stored to this storage module via this processing module.

4. sphygomanometer as claimed in claim 1 is characterized in that it also comprises a display module, and it connects this processing module, is to show this physiological parameter, this sensing signal and this basic parameter numerical value.

5. sphygomanometer as claimed in claim 1 is characterized in that, this acceleration change is for being arranged on this human body when this sphygomanometer, and the action that this human body produced changes.

6. sphygomanometer as claimed in claim 5 is characterized in that, this action changes and comprises that this human body is fallen or the action when falling in a swoon.

7. sphygomanometer as claimed in claim 5 is characterized in that, this action variation comprises the action that this human body is sat down or squatted down.

8. sphygomanometer as claimed in claim 1 is characterized in that, this physiological parameter comprises a pressure value and a beats value.

9. sphygomanometer as claimed in claim 1 is characterized in that, this basic parameter numerical value comprises a blood pressure upper limit set value, a blood pressure lower limit set value, a beats upper limit set value and a beats lower limit set value.

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